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The behavior of structures composed of composite materials
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Language
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Embry Riddle Aero University - CIRCCOLL - Circulating Collection
TA418.9.C6V55 1986
1 available
TA418.9.C6V55 1986
1 available
Embry Riddle Aero University - CIRCCOLL - Circulating Collection
TA418.9.O6V55 2002
1 available
TA418.9.O6V55 2002
1 available
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Contributors
ISBN
9789024731251
9781402009044
9781402009044
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Table of Contents
From the Book - Regular Print - Second edition.
1.1. General History 1 --
1.2. Composite Material Description 2 --
1.3. Types of Composite Materials 6 --
1.4. Constituent Properties 8 --
1.5. Composite Manufacturing, Fabrication and Processing 11 --
1.6. Uses of Composite Materials 21 --
1.7. Design and Analyses with Composite Materials 33 --
1.9. Journals 36 --
2. Anisotropic Elasticity and Composite Laminate Theory 39 --
2.2. Derivation of the Anisotropic Elastic Stiffness and Compliance Matrices 40 --
2.3. Physical Meaning of the Components of the Orthotropic Elasticity Tensor 46 --
2.4. Methods to Obtain Composite Elastic Properties from Fiber and Matrix Properties 50 --
2.5. Thermal and Hygrothermal Considerations 53 --
2.6. Time-Temperature Effects on Composite Materials 57 --
2.7. High Strain Rate Effects on Material Properties 58 --
2.8. Laminae of Composite Materials 59 --
2.9. Laminate Analyses 66 --
2.10. Piezoelectric Effects 76 --
3. Plates and Panels of Composite Materials 87 --
3.2. Plate Equilibrium Equations 87 --
3.3. Bending of Composite Material Laminated Plates: Classical Theory 91 --
3.4. Classical Plate Theory Boundary Conditions 94 --
3.5. Navier Solutions for Rectangular Composite Material Plates 95 --
3.6. Navier Solution for a Uniformly Loaded Simply Supported Plate - An Example Problem 98 --
3.7. Levy Solution for Plates of Composite Materials 102 --
3.8. Perturbation Solutions for the Bending of a Composite Material Plate With Mid-Plane Symmetry and No Bending-Twisting Coupling 106 --
3.9. Quasi-Isotropic Composite Panels Subjected to a Uniform Lateral Load 109 --
3.10. A Static Analysis of Composite Material Panels Including Transverse Shear Deformation Effects 111 --
3.11. Boundary Conditions for a Plate Using the Refined Plate Theory Which Includes Transverse Shear Deformation 114 --
3.12. Composite Plates on an Elastic Foundation 115 --
3.13. Solutions for Plates of Composite Materials Including Transverse-Shear Deformation Effects, Simply Supported on All Four Edges 116 --
3.14. Dynamic Effects on Panels of Composite Materials 119 --
3.15. Natural Flexural Vibrations of Rectangular Plates: Classical Theory 120 --
3.16. Natural Flexural Vibrations of Composite Material Plate Including Transverse-Shear Deformation Effects 122 --
3.17. Forced-Vibration Response of a Composite Material Plate Subjected to a Dynamic Lateral Load 124 --
3.18. Buckling of a Rectangular Composite Material Plate
Classical Theory
130 --
3.19. Buckling of a Composite Material Plate Including Transverse-Shear Deformation Effects 132 --
3.20. Some Remarks on Composite Structures 135 --
3.21. Methods of Analysis for Sandwich Panels With Composite Material Faces, and Their Structural Optimization 138 --
3.22. Governing Equations for a Composite Material Plate With Mid-Plane Asymmetry 138 --
3.23. Governing Equations for a Composite Material Plate With Bending-Twisting Coupling 139 --
4. Beams, Columns and Rods of Composite Materials 155 --
4.1. Development of Classical Beam Theory 155 --
4.2. Some Composite Beam Solutions 160 --
4.3. Composite Beams With Abrupt Changes in Geometry or Load 165 --
4.4. Solutions by Green's Functions 171 --
4.5. Composite Beams of Continuously Varying Cross-Section 173 --
4.6. Rods 177 --
4.7. Vibration of Composite Beams 179 --
4.8. Beams With Mid-Plane Asymmetry 183 --
4.9. Advanced Beam Theory for Dynamic Loading Including Mid-Plane Asymmetry 184 --
4.10. Advanced Beam Theory Including Transverse Shear Deformation Effects 193 --
4.11. Buckling of Composite Columns 197 --
5. Composite Material Shells 215 --
5.2. Analysis of Composite Material Circular Cylindrical Shells 215 --
5.3. Some Edge Load and Particular Solutions 222 --
5.4. A General Solution for Composite Cylindrical Shells Under Axially Symmetric Loads 228 --
5.5. Response of a Long Axi-Symmetric Laminated Composite Shell to an Edge Displacement 230 --
5.6. Sample Solutions 232 --
5.7. Mid-Plane Asymmetric Circular Cylindrical Shells 239 --
5.8. Buckling of Circular Cylindrical Shells of Composite Materials Subjected to Various Loads 243 --
5.9. Vibrations of Composite Shells 252 --
5.10. Additional Reading On Composite Shells 253 --
6. Energy Methods For Composite Material Structures 259 --
6.2. Theorem of Minimum Potential Energy 260 --
6.3. Analysis of a Beam Using the Theorem of Minimum Potential Energy 261 --
6.4. Use of Minimum Potential Energy for Designing a Composite Electrical Transmission Tower 268 --
6.5. Minimum Potential Energy for Rectangular Plates 272 --
6.6. A Rectangular Composite Material Plate Subjected to Lateral and Hygrothermal Loads 274 --
6.7. In-Plane Shear Strength Determination of Composite Materials in Laminated Composite Panels 276 --
6.8. Use of the Theorem of Minimum Potential Energy to Determine Buckling Loads in Composite Plates 282 --
6.9. Trial Functions for Various Boundary Conditions for Composite Material Rectangular Plates 285 --
6.10. Reissner's Variational Theorem and its Applications 286 --
6.11. Static Deformation of Moderately Thick Beams 289 --
6.12. Flexural Vibrations of Moderately Thick Beams 293 --
6.13. Flexural Natural Frequencies of a Simply Supported Beam Including Transverse Shear Deformation and Rotatory Inertia Effects 295 --
7. Strength and Failure Theories 303 --
7.2. Failure of Monolithic Isotropic Materials 306 --
7.3. Anisotropic Strength and Failure Theories 309 --
7.4. Lamina Strength Theories 315 --
7.5. Laminate Strength Analysis 328 --
8. Joining of Composite Material Structures 333 --
8.2. Adhesive Bonding 333 --
8.3. Mechanical Fastening 348 --
9. Introduction to Composite Design 361 --
9.2. Structural Composite Design Procedures 368 --
9.3. Engineering Analysis 371 --
A-1 Micromechanics 375 --
A-2 Test Standards for Polymer Matrix Composites 391 --
A-3 Properties of Various Polymer Composites 393.
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